DE102019201957A1 - Component of a motor vehicle, radar unit, method for producing a component and motor vehicle - Google Patents

Abstract

The invention relates to a component of a motor vehicle, in particular a painted or to be painted body component or add-on part, a method for producing the component according to the invention, a radar unit which comprises a component according to the invention, and a motor vehicle which comprises the radar device according to the invention ) of a motor vehicle, in particular a painted or to be painted body component or add-on part, which is at least partially made of at least one plastic, comprises an inductively or capacitively acting device (11) which has several electrically conductive ones spaced apart in at least one plane (30, 40) Has structural elements (20) which are covered on both sides of the plane by plastic (10). In this case, plastic (10) is arranged at least in some areas in the plane (30, 40) between the electrically conductive structural elements (20). By means of the electrically conductive structural elements (20), a reflection of electromagnetic waves caused by a coating applied to the component (1), in particular in the microwave range, can be at least partially compensated.

Description

The invention relates to a component of a motor vehicle, in particular a painted or to be painted body component or add-on part, a method for producing the component according to the invention, a radar unit which comprises a component according to the invention, and a motor vehicle which comprises the radar device according to the invention.

Radar sensor technology is an increasingly relevant technology in automotive technology, especially with regard to autonomous driving. Using a radar, it is possible to locate objects and measure their distance from the radar. With regard to the integration of radar sensors in motor vehicles, it is desirable to arrange them behind or in body components. Body parts are usually painted, with paints with a high proportion of metal pigment and / or mineral pigment being used in many cases. This lacquer finish means that the electromagnetic waves that the radar sensor must receive to detect objects and / or people are reflected to a large extent on the lacquer layer, which means that the radar can no longer function properly.

The state of the art is to exclude certain paints for painting body parts which are to be installed in a vehicle in connection with radar sensors. Another approach is to make an individual adjustment of the thickness of the lacquer layer for a given lacquer. However, this procedure is associated with high manufacturing costs. Typically, however, the use of radar sensors behind painted body parts is avoided. Overall, the commercial use of radar technology in motor vehicles is therefore severely restricted.

The DE 101 2008 036 012 A1 shows a radome for a radar sensor in a motor vehicle. An inductively or capacitively acting device is arranged on one side of the wall of the radome or between two plastic layers of the wall of the radome. The in the DE 101 2008 036 012 A1 For this purpose, the device shown comprises several conductor strips. The radome shown here is a sandwich construction.

The DE 10 2012 010 695 A1 shows a vehicle component made of a fiber composite material, which has an electrically conductive and an electrically insulating area. The electrically conductive area forms an antenna structure which is provided to receive and / or transmit electromagnetic radiation, or to form a ground structure. The electrically insulating areas are set up in such a way that the vehicle component is permeable to electromagnetic radiation.

The US 2013/0040098 shows a benzoxazine composite material, consisting of several layers of material, from which a radome can be produced, among other things. As reinforcement, the composite material includes fibers or fabrics, which can also include carbon or metal fibers. Using a metallic mesh or surface etching, frequency-selective surface properties can be produced in certain orientations.

The present invention is based on the object of providing a component of a motor vehicle, a method for producing the component and a radar unit which comprises a component according to the invention, with which it is possible to reduce the reflection of electromagnetic waves caused by painting the Component is caused to at least partially compensate.

The object is achieved according to the invention by a component of a motor vehicle according to claim 1, by a radar unit according to claim 8, a method for producing the component according to the invention according to claim 9, and by a motor vehicle according to claim 10. Advantageous embodiments of the component are set out in subclaims 2- 7 shown.

A first aspect of the invention is a component of a motor vehicle, in particular a painted or to be painted body component or add-on part, which is formed at least in some areas from at least one plastic. The component comprises an inductively or capacitively acting device which has a plurality of electrically conductive structural elements which are spaced apart from one another in at least one plane and which are covered by plastic on both sides of the plane. In this case, plastic is also at least partially arranged in the plane between the electrically conductive structural elements, so that by means of the electrically conductive structural elements a reflection of electromagnetic waves caused by a paint applied to the component, in particular in the microwave range, can be at least partially compensated.

In other words, the inductively or capacitively acting device is embedded in a plastic matrix of the component of a motor vehicle in such a way that the electrically conductive structural elements are at least partially completely surrounded by plastic. The electrically conductive structural elements are on the one hand covered by plastic on both sides of the plane in which the electrically conductive structural elements are arranged and, on the other hand, there is also plastic at least partially between the electrically conductive structural elements within the plane in which they are arranged. The electrically conductive structural elements are thus embedded in the plastic or in the plastic matrix which at least partially forms the component.

The paint layer, which is typically applied to a body component, generally represents a resistance to an electromagnetic wave, that is, unless the paint layer is specially adapted with regard to its thickness and its material components with regard to the electromagnetic wave. This means that the lacquer layer or the boundary layer of lacquer and the medium adjoining the lacquer reflects a high proportion of the electromagnetic wave and the transmitted proportion of the electromagnetic wave is accordingly reduced. In other words, the power or the intensity of the electromagnetic wave is reduced by reflection. The power losses due to reflection on the paint layer can be at least partially compensated for by the device of the component according to the invention.

Typically, a lacquer layer has a capacitive effect with respect to an electromagnetic wave and can be at least partially compensated for its power-reducing effect by means of an inductively acting device. The device according to the invention therefore preferably acts inductively, with a capacitive effect not being excluded.

Electromagnetic waves in the context of the invention are electromagnetic waves in the frequency range from 1 GHz to 300 GHz, in particular in the frequency range from 10 GHz to 200 GHz. The frequency range from 1 GHz to 300 GHz is usually also referred to as the microwave range. This frequency range is typically the measuring range of radar devices or of radar transmitting and receiving devices.

Accordingly, it is possible to combine the component according to the invention with a radar device, or to arrange a radar device behind and / or in the component according to the invention. This increases the possibilities of positioning radar devices on and / or in a vehicle, namely in particular in areas behind plastic components provided with a metallic and / or mineral-pigmented coating.

The device has a plurality of electrically conductive structural elements spaced apart from one another in at least one plane. In the context of the invention, spaced means that the structural elements essentially do not touch. It is not excluded that the electrically conductive structural elements are connected to one another by means of a connecting element, for example for the purpose of introducing and / or distributing electrical energy and / or heat in the device.

The electrically conductive structural elements can be made from a metallic material, such as copper, and / or from a carbon-containing material.

The electrical conductivity of the structural elements should preferably be at least 10 ⁴ S / m. The electrical conductivity is particularly preferably at least 10 ⁵ S / m.

The component according to the invention is typically formed at least partially from at least one plastic and is painted or to be painted on at least one side. The component can also be made up of several plastic layers, at least in some areas.

The electrically conductive structural elements are covered with plastic on both sides of the plane in which they are arranged. Furthermore, plastic is arranged at least regionally between the structural elements, that is to say in the plane. In other words, the device or the structural elements are embedded in a plastic matrix which at least partially forms the component according to the invention. This does not exclude the possibility that there may be omissions and / or defects in the plastic matrix due to the design and / or production.

The plane in which the electrically conductive structural elements are arranged can also be designed to be slightly curved or adapted to the contour of the component, that is to say its three-dimensional shape. Overall, the entirety of the electrically conductive structural elements realizes an essentially flat, two-dimensional structure.

In one embodiment, the device of the component according to the invention extends in a plane parallel to the side of the component that is directed outwards when it is properly aligned. The device is advantageously arranged in a central plane of the component, which means that it is arranged in the middle third of the component in relation to the component thickness or component thickness. It is not excluded, however, that the device is arranged in an area close to the painted or to be painted component side or in an area of the side opposite this side.

The particular advantage of the component according to the invention is that the inductive or capacitive device enables at least partial compensation of the reflective effect of a paint layer on the component when the component is penetrated by electromagnetic waves to be transmitted or received by a radar device. By embedding the device or its electrically conductive structural elements in the plastic matrix of the component, the device is additionally at least partially protected from mechanical damage and also contributes to the overall mechanical rigidity of the component.

A further embodiment of the component according to the invention consists in that the structural elements of the plane are aligned essentially parallel to one another.

In other words, the main axes of the lengths of two adjacent electrically conductive structural elements are essentially at the same distance from one another along their length. This means that two adjacent electrically conductive structural elements do not touch.

Two adjacent structural elements are preferably at a distance A _F of at most 4 mm, preferably at most 3.2 mm. All distances A _{F between} two adjacent electrically conductive structural elements of a plane are advantageously essentially the same size. If there are electrically conductive structural elements in several planes, the distance A _F can be of different sizes in the respective planes.

Further electrically insulating material, in particular in the form of glass fibers, can be arranged in the plane between adjacent structural elements. If necessary, this electrically insulating material or the electrically insulating fibers alone can ensure that the defined distance A _F is maintained. In an alternative embodiment, in addition to the electrically insulating fibers, there is plastic between the electrically conductive structural elements.

The parallelism of the electrically conductive structural elements makes an advantageous contribution to compensating for the reflection of electromagnetic waves through the lacquer layer.

In a further embodiment, the structural elements are formed by fibers.

A fiber in the sense of the invention is an elongate linear structure. The fibers preferably have an essentially round cross section perpendicular to their length. However, other cross-sections are also possible.

This embodiment offers the advantage that the electrically conductive structural elements can be formed inexpensively and are easy to process.

Another embodiment is characterized in that the electrically conductive structure elements each have a maximum transverse extent Q _F transversely to the plane, where 0.02 mm <Q _F <1 mm.

The electrically conductive structural elements particularly advantageously have a transverse extent Q _F of 0.05 <Q _F <0.7. In the case of electrically conductive structural elements with a round cross-section, the maximum transverse extent denotes the diameter. The maximum transverse extent is preferably substantially the same along the entire length of an electrically conductive structural element.

The maximum transverse extent of the structural elements can be derived from the frequency range of the electromagnetic waves, the reflection of which is to be compensated, and the properties of the materials of paint and plastic that form the component according to the invention, as well as their material thicknesses. The value range of the transverse extension in this embodiment is particularly advantageous with regard to the use of radar sensors in connection with body components of motor vehicles.

In a further embodiment, the electrically conductive structural elements are present as a component of a woven fabric, scrim, knitted fabric, braid, knitted fabric, stitched fabric, nonwoven fabric or felt or individually.

It is possible that the electrically conductive structural elements are incorporated during the production of the textile structure, that is to say that they at least partially form the line-shaped starting elements, in other words threads, for the production of a fabric or scrim.

A fabric is a fabric, typically made up of two systems of linear elements. At least one system of linear elements can contain electrically conductive structural elements, for example in the form of fibers. The remaining linear elements for forming the fabric can consist of an electrically insulating material, such as glass fibers, so that the electrically conductive structural elements can be woven into the fabric with at least partially defined spacing from one another.

A scrim is a flat structure made up of at least one layer, in the sense of a plane, linear elements aligned parallel to each other along their length, which are usually fixed in position to one another in sections. The fixation can be done mechanically or adhesively, for example. For the purposes of the invention, the linear elements that form the scrim can include at least partially electrically conductive structural elements. It is also possible to combine electrically conductive structural elements with electrically insulating material such as glass fibers. In such an embodiment it is also possible to position the electrically conductive structural elements in the scrim with at least partially defined spacing from one another.

The two above embodiments, woven and non-woven, describe two possibilities in which the electrically conductive structural elements are incorporated during the production of the material from linear elements.

However, it is also possible to equip a prefabricated fabric, scrim, knitted fabric, braid, knitted fabric, stitched fabric, nonwoven fabric or felt in a separate or combined operation with electrically conductive structural elements and / or electrically insulating material, such as glass fibers. It is also possible that the prefabricated scrim, knitted fabric, braid, knitted fabric, stitched fabric, nonwoven fabric or the felt consists at least partially of an electrically insulating material, such as glass fibers.

In the embodiments mentioned, the electrically conductive structure elements can be arranged in parallel or, at least in a perpendicular projection onto the plane of arrangement of the structure elements, form a grid.

A fabric, scrim, knitted fabric, braid, knitted fabric, stitched fabric, nonwoven fabric or felt can have recesses due to the manufacturing process. However, it is also possible that a fabric, scrim, knitted fabric, braid, knitted fabric, stitched fabric, nonwoven fabric or a felt, in particular if the mentioned embodiment has a low porosity, or in other words a high material density, in a separate manufacturing cut with cutouts is provided. Recesses can be made, for example, by means of shear cutting. Plastic can be arranged in the recesses.

With regard to the production of the component according to the invention, the aforementioned embodiments have the advantage that the electrically conductive structural elements of the device are in a defined and at least pre-fixed position before they are connected to the plastic from which the component is at least partially formed Alignment.

In one embodiment, the device has electrically conductive structural elements spaced apart from one another in several planes, which are covered by plastic on both sides of the respective plane, with plastic also being arranged at least regionally in the respective plane between the structural elements.

In one embodiment, the electrically conductive structural elements are aligned essentially parallel to one another in a respective plane.

The electrically conductive structural elements can be aligned identically in several planes. Thus, for example, all electrically conductive structural elements of a device can also be aligned in the same way.

In another advantageous embodiment, the electrically conductive structural elements of one level are arranged at an angle to the structural elements of another, for example adjacent, level. In a special embodiment, the electrically conductive structural elements of two planes are arranged at an angle of preferably 90 ° to one another. In this embodiment, a grid can thus be formed in a projection perpendicular to the planes.

A grid can also be formed if electrically conductive structural elements are arranged at an angle to one another in a plane.

Due to the fact that there is a respective level of plastic on both sides, the respective levels are spaced apart by plastic. In other words, the electrically conductive structural elements of a respective level are also embedded independently of one another in the plastic matrix of the component according to the invention.

The distance between adjacent planes A _S is advantageously no more than 3 mm.

It is possible for electrically conductive structural elements and / or different numbers of levels to be implemented in a plurality of sections of the component according to the invention at different distances.

What is particularly advantageous in this embodiment is that by means of an arrangement of electrically conductive structural elements in a plurality of planes, in particular with electrically conductive structural elements in the respective planes that are spaced differently from one another, the compensatory Effect of the device can be increased and / or expanded to other frequency ranges.

In a further embodiment, at least one of the structural elements is electrically and / or thermally coupled to a heating device, so that at least one structural element can be at least partially heated electrically and / or by thermal conduction.

If the device comprises several electrically conductive structural elements, then several electrically conductive structural elements are accordingly electrically and / or thermally coupled to a heating device, so that several electrically conductive structural elements can be heated.

The main advantage of this embodiment is that ice and / or snow can be removed from the component according to the invention by melting.

A further aspect of the invention is a radar unit for a motor vehicle which comprises a radar and a component according to the invention, the radar being mechanically fixed on one side of the component.

A radar is a device for locating objects and / or for measuring distances to objects on the basis of electromagnetic waves which are transmitted and / or received by a radar. A radar usually sends out an electromagnetic wave, receives its reflection on the object to be detected and calculates the distance between the radar device and the object from the time interval between sending and receiving.

The radar is advantageously arranged in its intended position on the side of the component facing the inside of the vehicle. It cannot be ruled out that the radar is at least partially structurally integrated into the component.

This embodiment is particularly suitable for motor vehicle components that are made of plastic and that are provided with a lacquer layer, in particular with a metal and / or mineral-pigmented lacquer layer, on the side opposite the position of the radar.

The advantage lies in the integration of the function of radar and body component or add-on part in one structural unit.

Another aspect of the invention relates to a method for producing a component of a motor vehicle with a reflection of electromagnetic waves, in particular in the microwave range, at least partially compensating effect, in which several electrically conductive structural elements are introduced into the plastic in a plastic molding process, so that the Structural elements spaced apart from one another in at least one plane are in the present case covered by plastic on both sides of the plane and plastic is also arranged at least regionally in the plane between the structural elements.

In other words, the method makes it possible to integrate the device in a primary molding process typical of an at least partially plastic-based body part, such as injection molding, in the manufacturing process of the body part. The electrically conductive structural elements are thus incorporated into the body component during the primary molding process, in particular they are overmolded.

Following the primary molding process, the body component is typically painted.

A particular advantage of the method according to the invention is that it is possible to manufacture the component according to the invention in a cost-saving manner as a result of the integration in the primary forming process.

Another aspect of the invention is a motor vehicle, in particular a passenger car, which comprises at least one radar unit according to the invention.

A corresponding motor vehicle is thus set up in particular for locating objects and offers expanded options for implementing what is known as autonomous driving.

The invention is explained below with reference to the exemplary embodiments shown in the accompanying drawings.

• 1: eine erste Ausgestaltungsform einer induktiv oder kapazitiv wirkenden Vorrichtung des erfindungsgemäßen Bauteils mit elektrisch leitfähigen Strukturelementen in einer Ebene,
• 2: einen Ausschnitt eines erfindungsgemäßen Bauteils mit einer induktiv oder kapazitiv wirkenden Vorrichtung gemäß der Ausgestaltungsform in 1 im Querschnitt,
• 3: eine zweite Ausgestaltungsform einer induktiv oder kapazitiv wirkenden Vorrichtung des erfindungsgemäßen Bauteils mit elektrisch leitfähigen Strukturelementen in zwei Ebenen, sowie
• 4: einen Ausschnitt eines erfindungsgemäßen Bauteils mit einer induktiv oder kapazitiv wirkenden Vorrichtung gemäß der Ausgestaltungsform in 3 im Querschnitt.

Show it

• 1 : a first embodiment of an inductively or capacitively acting device of the component according to the invention with electrically conductive structural elements in one plane,
• 2 : a section of a component according to the invention with an inductively or capacitively acting device according to the embodiment in 1 in cross section,
• 3 : a second embodiment of an inductively or capacitively acting device of the component according to the invention with electrically conductive structural elements in two planes, and
• 4th : a section of a component according to the invention with an inductively or capacitively acting device according to the embodiment in 3 in cross section.

1 shows a first embodiment of an inductively or capacitively acting device 11 of the component according to the invention 1 with several electrically conductive structural elements 20th , which in the present example as fibers 21st are executed. The view shown corresponds to a view from the front when a component according to the invention is aligned as intended 1 such as a front panel, which is an inductive or capacitive device 11 includes. It can be seen that the electrically conductive structural elements 20th are aligned essentially parallel to one another. Two adjacent electrically conductive structural elements 20th indicate the distance A _F 23 to each other, which is essentially between all adjacent electrically conductive structural elements 20th is approximately the same.

2 shows the inductive or capacitive acting device 11 according to 1 as part of the component according to the invention 1 , here only a section of the component according to the invention 1 is shown. In contrast to the view in 1 is here the corresponding cross section through the component according to the invention 1 shown. It can be seen that the electrically conductive structural elements 20th that act as fibers 21st are pronounced in one plane 30th are arranged. The fibers 21st In the example shown, they have a round cross-section with a transverse extension 22nd up and are with the propriety A _F 23 spaced from each other. The fibers 21st are completely made of plastic in the example shown 10 surrounded, in other words are the fibers 21st into the matrix of the plastic 10 embedded.

3 shows a second embodiment of an inductively or capacitively acting device 11 of the component according to the invention 1 with several electrically conductive structural elements 20th . As in the first embodiment in 1 are the electrically conductive structural elements 20th than fibers 21st executed. The fibers 21st lie here on a first level 30th and a second level 40 before and are in their respective level 30th , 40 aligned parallel to each other. While the fibers 21st the first level 30th as in the example 1 , oriented from top to bottom, are the fibers 21st the second level 40 from left to right, i.e. at an angle of 90 ° to the alignment of the fibers 21st the first level 30th , aligned. In the view shown results in the projection of the fibers 21st the inductive or capacitive device 11 a grid with regularly spaced crossing points. It can be seen that the distance A _F 23 of the fibers 21st in the first level 30th not identical to the distance A _F 24 of the fibers 21st in the second level 40 is.

4th shows the inductive or capacitive acting device 11 according to 3 as part of the component according to the invention 1 , here again only a section of the component according to the invention 1 is shown. Using the example of the one on the first level 30th arranged fibers 21st can be seen that the fibers 21st a defined transverse extent 22nd have and are arranged at a distance A _F 23 to each other. The same applies to those in the second level 40 arranged fibers 21st , the transverse extent 22nd and the propriety A _F 23 not necessarily on both levels 30th , 40 must be identical. 4th shows that all fibers 21st both levels 30th , 40 with plastic 10 are surrounded or are embedded in them. It can also be seen that in this exemplary embodiment, the first and second levels 30th , 40 with the distance A _S 25 are spaced apart and also between the planes 30th , 40 Plastic 10 is arranged.

List of reference symbols

1

Component

10

plastic

11

inductive or capacitive device

20th

electrically conductive structural element

21st

fiber

22nd

Transverse extension Q _F

23

Distance A _F first level

24

Distance A _F second level

25th

Distance A _S

30th

first floor

40

second level

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 1012008036012 A1 [0004]
• DE 102012010695 A1 [0005]
• US 2013/0040098 [0006]

Claims (10)

Component (1) of a motor vehicle, in particular a painted or to be painted body component or add-on part, which is at least partially made of at least one plastic, the component (1) comprising an inductively or capacitively acting device (11) which has several in at least one plane (30, 40) has mutually spaced electrically conductive structural elements (20) which are covered on both sides of the plane by plastic (10), characterized in that in the plane (30, 40) between the electrically conductive structural elements (20) at least in some areas Plastic (10) is arranged so that by means of the electrically conductive structural elements (20) a reflection of electromagnetic waves caused by a coating applied to the component (1), in particular in the microwave range, can be at least partially compensated. Component (1) of a motor vehicle according to Claim 1 , characterized in that the electrically conductive structural elements (20) of the plane (30, 40) are aligned essentially parallel to one another. Component (1) of a motor vehicle according to at least one of the preceding claims, characterized in that the electrically conductive structural elements (20) are formed by fibers (21). Component (1) of a motor vehicle according to at least one of the preceding claims, characterized in that the electrically conductive structural elements (20) transversely to the plane (30, 40) each have a maximum transverse extent Q _F (23, 24), where 0.02 mm <Q _F <1 mm. Component (1) of a motor vehicle according to at least one of the preceding claims, characterized in that the electrically conductive structural elements (20) are present as part of a woven fabric, scrim, knitted fabric, braid, knitted fabric, stitched fabric, nonwoven fabric or felt or individually. Component of a motor vehicle according to at least one of the preceding claims, characterized in that the device (11) has electrically conductive structural elements (20) spaced apart from one another in several planes (30, 40) which are made of plastic (30, 40) on both sides of the respective plane (30, 40). 10) are covered, with plastic (10) also being arranged at least regionally in the respective plane (30, 40) between the electrically conductive structural elements (20). Component (1) of a motor vehicle according to at least one of the preceding claims, characterized in that at least one of the electrically conductive structural elements (20) is electrically and / or thermally coupled to a heating device, so that at least one electrically conductive structural element (20) is electrically and / or or can be at least partially heated by conduction. Radar unit for a motor vehicle, comprising a radar and a component (1) according to one of the Claims 1 - 7th , the radar being mechanically fixed on one side of the component (1). Method for producing a component (1) of a motor vehicle with an effect that at least partially compensates for a reflection of electromagnetic waves, in particular in the microwave range, in which several electrically conductive structural elements (20) are introduced into the plastic (10) in a plastic (10) primary molding process so that the electrically conductive structural elements (20) in at least one plane (30, 40) spaced apart from one another are covered by plastic (10) on both sides of the plane (30, 40) and also in the plane (30, 40) between the electrically conductive structural elements (20) at least partially plastic (10) is arranged. Motor vehicle, in particular passenger car, comprising at least one radar unit according to Claim 8 .

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